Simulating Electrohydrodynamic Ion-Drag Pumping on Distributed Parallel Computing Systems
Objectives: This paper aims to simulate EHD ion-drag pumping model using Finite Difference Method (FDM) and to apply the idea of parallelism to reduce the computational time. Methods: The numerical simulation of EHD ion-drag pumping plays an important part not only to understand the different work...
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Indian Society for Education and Environment
2017
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| Online Access: | http://ir.unimas.my/id/eprint/17207/1/Simulating%20Electrohydrodynamic%20Ion-Drag%20%28abstract%29.pdf http://ir.unimas.my/id/eprint/17207/ http://www.indjst.org/index.php/indjst/article/view/102620 |
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my.unimas.ir.172072017-08-14T07:20:36Z http://ir.unimas.my/id/eprint/17207/ Simulating Electrohydrodynamic Ion-Drag Pumping on Distributed Parallel Computing Systems Shakeel Ahmed, Kamboh Zubair, Ahmed Kalhoro Kashif, Ali Abro Jane, Labadin QA75 Electronic computers. Computer science Objectives: This paper aims to simulate EHD ion-drag pumping model using Finite Difference Method (FDM) and to apply the idea of parallelism to reduce the computational time. Methods: The numerical simulation of EHD ion-drag pumping plays an important part not only to understand the different working principles but also enables to model the designs with better performance. Since the performance of EHD pumps depends on the shapes and geometries of the actuator electrodes, therefore the variation in the geometric dimensions of the electrodes require dense and fine meshes for numerical solution. Consequently, the numerical simulations take unacceptably more execution time on sequential computers. For that reason, a Data Parallel Algorithm for EHD model (DPA-EHD) is designed. To implement the parallel algorithm a distributed parallel computing system using MATLAB Distributed Computing Server (MDCS) is configured. The computational time and speedup with respect to the different number of processors is evaluated. Findings: This results show that the parallel algorithm for EHD simulations may provide 4.14 times more speedup over sequential algorithm for large grid sizes. Improvements: This study shows the feasibility of using the parallelism to reduce the computational time in the EHD model enabling to simulate the micropumps with very small dimensions of electrodes. Indian Society for Education and Environment 2017 E-Article PeerReviewed text en http://ir.unimas.my/id/eprint/17207/1/Simulating%20Electrohydrodynamic%20Ion-Drag%20%28abstract%29.pdf Shakeel Ahmed, Kamboh and Zubair, Ahmed Kalhoro and Kashif, Ali Abro and Jane, Labadin (2017) Simulating Electrohydrodynamic Ion-Drag Pumping on Distributed Parallel Computing Systems. Indian Journal of Science and Technology, 10 (24). ISSN 09746846 (Print) http://www.indjst.org/index.php/indjst/article/view/102620 DOI: 10.17485/ijst/2017/v10i24/102620 |
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QA75 Electronic computers. Computer science Shakeel Ahmed, Kamboh Zubair, Ahmed Kalhoro Kashif, Ali Abro Jane, Labadin Simulating Electrohydrodynamic Ion-Drag Pumping on Distributed Parallel Computing Systems |
| description |
Objectives: This paper aims to simulate EHD ion-drag pumping model using Finite Difference Method (FDM) and to
apply the idea of parallelism to reduce the computational time. Methods: The numerical simulation of EHD ion-drag
pumping plays an important part not only to understand the different working principles but also enables to model the
designs with better performance. Since the performance of EHD pumps depends on the shapes and geometries of the
actuator electrodes, therefore the variation in the geometric dimensions of the electrodes require dense and fine meshes
for numerical solution. Consequently, the numerical simulations take unacceptably more execution time on sequential
computers. For that reason, a Data Parallel Algorithm for EHD model (DPA-EHD) is designed. To implement the parallel
algorithm a distributed parallel computing system using MATLAB Distributed Computing Server (MDCS) is configured. The
computational time and speedup with respect to the different number of processors is evaluated. Findings: This results
show that the parallel algorithm for EHD simulations may provide 4.14 times more speedup over sequential algorithm for
large grid sizes. Improvements: This study shows the feasibility of using the parallelism to reduce the computational time
in the EHD model enabling to simulate the micropumps with very small dimensions of electrodes. |
| format |
E-Article |
| author |
Shakeel Ahmed, Kamboh Zubair, Ahmed Kalhoro Kashif, Ali Abro Jane, Labadin |
| author_facet |
Shakeel Ahmed, Kamboh Zubair, Ahmed Kalhoro Kashif, Ali Abro Jane, Labadin |
| author_sort |
Shakeel Ahmed, Kamboh |
| title |
Simulating Electrohydrodynamic Ion-Drag Pumping on Distributed Parallel Computing Systems |
| title_short |
Simulating Electrohydrodynamic Ion-Drag Pumping on Distributed Parallel Computing Systems |
| title_full |
Simulating Electrohydrodynamic Ion-Drag Pumping on Distributed Parallel Computing Systems |
| title_fullStr |
Simulating Electrohydrodynamic Ion-Drag Pumping on Distributed Parallel Computing Systems |
| title_full_unstemmed |
Simulating Electrohydrodynamic Ion-Drag Pumping on Distributed Parallel Computing Systems |
| title_sort |
simulating electrohydrodynamic ion-drag pumping on distributed parallel computing systems |
| publisher |
Indian Society for Education and Environment |
| publishDate |
2017 |
| url |
http://ir.unimas.my/id/eprint/17207/1/Simulating%20Electrohydrodynamic%20Ion-Drag%20%28abstract%29.pdf http://ir.unimas.my/id/eprint/17207/ http://www.indjst.org/index.php/indjst/article/view/102620 |
| _version_ |
1644512561913135104 |
| score |
13.209306 |